1. CCA
CHANDIGARH COLLEGE OF ARCHITECTURE
SUBMITTED BY
SAHFOOR REHMAN
SANJANA
AMISHA DHIMAN
MUSKAN
PRIYANKA
SUBMITTED TO
JANBADE PARFULLA
TARACAHND
GHANSHYAM THAKUR
SHWETA SETHI
MADHUR MANAN GANDA
PRIYANKA
Project Brief:
Case Study of residential house
Services
3. INFORMATION
Theobjectiveofthisprojectistoconducta
comprehensive case study of the services in
Pierre Jenneret’s house, with a focus on
the electrical,
sewerage,watersupply,and
m echanicalsystem s.Theprojectaim sto
understand thedesign,functionality,
and
integrationofthesesystem swithin the
contextof Jenneret’s architectural
philosophy and them odernistm ovem ent.
4. magna sed pulvinar ultricies
T
E
X
T
H
E
R
E
T
E
X
T
H
E
R
E
I D E A
dolor ipsum
01
02 03
04
Lorem ipsum dolor
sit amet, consectetuer
adipiscing elit.
Lorem ipsum dolor
sit amet, consectetuer
adipiscing elit.
Lorem ipsum dolor
sit amet, consectetuer
adipiscing elit.
Lorem ipsum dolor
sit amet
5. INFORMATION
Ventilation Pipes: To prevent the build-
up of harmful gases and ensure proper
drainage flow, ventilation pipes were
installed. These pipes extended fromthe
sewerage system, usually through the
roof, to allow the release of gases and
maintain the pressure balance within the
drainagesystem.
.
6. magna sed pulvinar ultricies
T
E
X
T
H
E
R
E
T
E
X
T
H
E
R
E
I D E A
dolor ipsum
01
02
DRAINAGE SYSTEM
Lorem ipsum dolor
sit amet, consectetuer
adipiscing elit.
Lorem ipsum dolor
sit amet, consectetuer
adipiscing elit.
7. GO——AL
INFORMATION
Drainage System
• The drainage system facilitates the removal
of wastewater and sewage from the house.
• Components of a drainage system:
• Drainpipes
• Sewer lines
• Septic tank or connection to the
municipal sewer system
• Ventilation system
• Drainage system maintenance:
• Regular inspection for clogs or leaks
• Avoid flushing non-biodegradable
items
• Septic tank pumping (if applicable)
• Proper drainage system design for
effective flow
8. Purpose: The primary purpose of a drainage system is to channel water away
from the building or site to prevent water accumulation, which can lead to
structural damage, dampness, and mold growth.
Components: A drainage system typically includes various components, such
as gutters, downspouts, pipes, drains, and grading. These components work
together to collect and direct water away from the building or site.
Roof Drainage: The roof drainage system consists of gutters and downspouts.
Gutters are troughs that collect rainwater running off the roof, and
downspouts are vertical pipes that carry the water from the gutters to the
ground or a stormwater system
Surface Drainage: Surface drainage deals with managing water that falls on
the ground or flows over the site. It involves grading the land to create
slopes and contouring to direct water away from the building. Surface
drains and catch basins may be used to collect and divert surface water.
Subsurface Drainage: Subsurface drainage handles groundwater and
prevents it from seeping into basements or accumulating near the
foundation. It typically involves the use of drain pipes installed below
ground level to collect and divert water away from the building
9. When creating an architecture drawing, the drainage system is
typically depicted using symbols and annotations to indicate the
location and type of drainage components, pipe sizes, and directions
of water flow. These drawings help contractors and construction
teams understand and implement the design accurately.
It is important to consult with a qualified architect, engineer, or other
relevant professionals to ensure that the drainage system in your
architecture drawing meets local regulations and effectively manages
water flow for your specific project.
10.
11.
12.
13.
14. magna sed pulvinar ultricies
T
E
X
T
H
E
R
E
T
E
X
T
H
E
R
E
I D E A
dolor ipsum
01
02
Electricity
Lorem ipsum dolor
sit amet, consectetuer
adipiscing elit.
Lorem ipsum dolor
sit amet, consectetuer
adipiscing elit.
15.
16. Electrical drawings in architecture are an essential part of
building design and construction. These drawings provide
detailed information about the electrical systems and
components within a building, allowing electricians and
contractors to install and connect the electrical
infrastructure accurately. Here are some key points about
electrical drawings in architecture
IDEA 02
17.
18. Electricity
• Electricity is the lifeblood of modern homes, powering various
devices and appliances.
• Components of an electrical system:
• Main service panel
• Circuit breakers
• Outlets and switches
• Wiring (including copper or aluminum)
• Grounding system
• Electrical safety measures:
• Avoid overloading circuits
• Regular inspections and maintenance
• Use surge protectors
• Be cautious with electrical appliances
IDEA 02
21. Electricity
• Electricity is the lifeblood of modern homes, powering various
devices and appliances.
• Components of an electrical system:
• Main service panel
• Circuit breakers
• Outlets and switches
• Wiring (including copper or aluminum)
• Grounding system
• Electrical safety measures:
• Avoid overloading circuits
• Regular inspections and maintenance
• Use surge protectors
• Be cautious with electrical appliances
IDEA 02
24. INFORMATION
Theobjectiveofthisprojectistoconducta
comprehensive case study of the services in
satnam Namita house, with a focus on the
electrical,
sewerage,
watersupply,and
m echanicalsystem s.Theprojectaim sto
understand thedesign,functionality,
and
integrationofthesesystem swithin the
contextof satnam Namita architectural
philosophy and them odernistm ovem ent.
25. magna sed pulvinar ultricies
T
E
X
T
H
E
R
E
T
E
X
T
H
E
R
E
I D E A
dolor ipsum
01
02 03
04
Lorem ipsum dolor
sit amet, consectetuer
adipiscing elit.
Lorem ipsum dolor
sit amet, consectetuer
adipiscing elit.
Lorem ipsum dolor
sit amet, consectetuer
adipiscing elit.
Lorem ipsum dolor
sit amet
26. INFORMATION
Ventilation Pipes: To prevent the build-
up of harmful gases and ensure proper
drainage flow, ventilation pipes were
installed. These pipes extended fromthe
sewerage system, usually through the
roof, to allow the release of gases and
maintain the pressure balance within the
drainagesystem.
.
27. magna sed pulvinar ultricies
T
E
X
T
H
E
R
E
T
E
X
T
H
E
R
E
I D E A
dolor ipsum
01
02
DRAINAGE SYSTEM
Lorem ipsum dolor
sit amet, consectetuer
adipiscing elit.
Lorem ipsum dolor
sit amet, consectetuer
adipiscing elit.
28. GO——AL
INFORMATION
Drainage System
• The drainage system facilitates the removal
of wastewater and sewage from the house.
• Components of a drainage system:
• Drainpipes
• Sewer lines
• Septic tank or connection to the
municipal sewer system
• Ventilation system
• Drainage system maintenance:
• Regular inspection for clogs or leaks
• Avoid flushing non-biodegradable
items
• Septic tank pumping (if applicable)
• Proper drainage system design for
effective flow
29. Purpose: The primary purpose of a drainage system is to channel water away
from the building or site to prevent water accumulation, which can lead to
structural damage, dampness, and mold growth.
Components: A drainage system typically includes various components, such
as gutters, downspouts, pipes, drains, and grading. These components work
together to collect and direct water away from the building or site.
Roof Drainage: The roof drainage system consists of gutters and downspouts.
Gutters are troughs that collect rainwater running off the roof, and
downspouts are vertical pipes that carry the water from the gutters to the
ground or a stormwater system
Surface Drainage: Surface drainage deals with managing water that falls on
the ground or flows over the site. It involves grading the land to create
slopes and contouring to direct water away from the building. Surface
drains and catch basins may be used to collect and divert surface water.
Subsurface Drainage: Subsurface drainage handles groundwater and
prevents it from seeping into basements or accumulating near the
foundation. It typically involves the use of drain pipes installed below
ground level to collect and divert water away from the building
30. When creating an architecture drawing, the drainage system is
typically depicted using symbols and annotations to indicate the
location and type of drainage components, pipe sizes, and directions
of water flow. These drawings help contractors and construction
teams understand and implement the design accurately.
It is important to consult with a qualified architect, engineer, or other
relevant professionals to ensure that the drainage system in your
architecture drawing meets local regulations and effectively manages
water flow for your specific project.
31.
32.
33.
34.
35. magna sed pulvinar ultricies
T
E
X
T
H
E
R
E
T
E
X
T
H
E
R
E
I D E A
dolor ipsum
01
02
Electricity
Lorem ipsum dolor
sit amet, consectetuer
adipiscing elit.
Lorem ipsum dolor
sit amet, consectetuer
adipiscing elit.
36.
37. Electrical drawings in architecture are an essential part of
building design and construction. These drawings provide
detailed information about the electrical systems and
components within a building, allowing electricians and
contractors to install and connect the electrical
infrastructure accurately. Here are some key points about
electrical drawings in architecture
IDEA 02
38.
39. Electricity
• Electricity is the lifeblood of modern homes, powering various
devices and appliances.
• Components of an electrical system:
• Main service panel
• Circuit breakers
• Outlets and switches
• Wiring (including copper or aluminum)
• Grounding system
• Electrical safety measures:
• Avoid overloading circuits
• Regular inspections and maintenance
• Use surge protectors
• Be cautious with electrical appliances
IDEA 02
42. Electricity
• Electricity is the lifeblood of modern homes, powering various
devices and appliances.
• Components of an electrical system:
• Main service panel
• Circuit breakers
• Outlets and switches
• Wiring (including copper or aluminum)
• Grounding system
• Electrical safety measures:
• Avoid overloading circuits
• Regular inspections and maintenance
• Use surge protectors
• Be cautious with electrical appliances
IDEA 02